greenplumn testint128 源码
greenplumn testint128 代码
文件路径:/src/tools/testint128.c
/*-------------------------------------------------------------------------
*
* testint128.c
* Testbed for roll-our-own 128-bit integer arithmetic.
*
* This is a standalone test program that compares the behavior of an
* implementation in int128.h to an (assumed correct) int128 native type.
*
* Copyright (c) 2017-2019, PostgreSQL Global Development Group
*
*
* IDENTIFICATION
* src/tools/testint128.c
*
*-------------------------------------------------------------------------
*/
#include "postgres_fe.h"
/*
* By default, we test the non-native implementation in int128.h; but
* by predefining USE_NATIVE_INT128 to 1, you can test the native
* implementation, just to be sure.
*/
#ifndef USE_NATIVE_INT128
#define USE_NATIVE_INT128 0
#endif
#include "common/int128.h"
/*
* We assume the parts of this union are laid out compatibly.
*/
typedef union
{
int128 i128;
INT128 I128;
union
{
#ifdef WORDS_BIGENDIAN
int64 hi;
uint64 lo;
#else
uint64 lo;
int64 hi;
#endif
} hl;
} test128;
/*
* Control version of comparator.
*/
static inline int
my_int128_compare(int128 x, int128 y)
{
if (x < y)
return -1;
if (x > y)
return 1;
return 0;
}
/*
* Get a random uint64 value.
* We don't assume random() is good for more than 16 bits.
*/
static uint64
get_random_uint64(void)
{
uint64 x;
x = (uint64) (random() & 0xFFFF) << 48;
x |= (uint64) (random() & 0xFFFF) << 32;
x |= (uint64) (random() & 0xFFFF) << 16;
x |= (uint64) (random() & 0xFFFF);
return x;
}
/*
* Main program.
*
* Generates a lot of random numbers and tests the implementation for each.
* The results should be reproducible, since we don't call srandom().
*
* You can give a loop count if you don't like the default 1B iterations.
*/
int
main(int argc, char **argv)
{
long count;
if (argc >= 2)
count = strtol(argv[1], NULL, 0);
else
count = 1000000000;
while (count-- > 0)
{
int64 x = get_random_uint64();
int64 y = get_random_uint64();
int64 z = get_random_uint64();
test128 t1;
test128 t2;
/* check unsigned addition */
t1.hl.hi = x;
t1.hl.lo = y;
t2 = t1;
t1.i128 += (int128) (uint64) z;
int128_add_uint64(&t2.I128, (uint64) z);
if (t1.hl.hi != t2.hl.hi || t1.hl.lo != t2.hl.lo)
{
printf("%016lX%016lX + unsigned %lX\n", x, y, z);
printf("native = %016lX%016lX\n", t1.hl.hi, t1.hl.lo);
printf("result = %016lX%016lX\n", t2.hl.hi, t2.hl.lo);
return 1;
}
/* check signed addition */
t1.hl.hi = x;
t1.hl.lo = y;
t2 = t1;
t1.i128 += (int128) z;
int128_add_int64(&t2.I128, z);
if (t1.hl.hi != t2.hl.hi || t1.hl.lo != t2.hl.lo)
{
printf("%016lX%016lX + signed %lX\n", x, y, z);
printf("native = %016lX%016lX\n", t1.hl.hi, t1.hl.lo);
printf("result = %016lX%016lX\n", t2.hl.hi, t2.hl.lo);
return 1;
}
/* check multiplication */
t1.i128 = (int128) x * (int128) y;
t2.hl.hi = t2.hl.lo = 0;
int128_add_int64_mul_int64(&t2.I128, x, y);
if (t1.hl.hi != t2.hl.hi || t1.hl.lo != t2.hl.lo)
{
printf("%lX * %lX\n", x, y);
printf("native = %016lX%016lX\n", t1.hl.hi, t1.hl.lo);
printf("result = %016lX%016lX\n", t2.hl.hi, t2.hl.lo);
return 1;
}
/* check comparison */
t1.hl.hi = x;
t1.hl.lo = y;
t2.hl.hi = z;
t2.hl.lo = get_random_uint64();
if (my_int128_compare(t1.i128, t2.i128) !=
int128_compare(t1.I128, t2.I128))
{
printf("comparison failure: %d vs %d\n",
my_int128_compare(t1.i128, t2.i128),
int128_compare(t1.I128, t2.I128));
printf("arg1 = %016lX%016lX\n", t1.hl.hi, t1.hl.lo);
printf("arg2 = %016lX%016lX\n", t2.hl.hi, t2.hl.lo);
return 1;
}
/* check case with identical hi parts; above will hardly ever hit it */
t2.hl.hi = x;
if (my_int128_compare(t1.i128, t2.i128) !=
int128_compare(t1.I128, t2.I128))
{
printf("comparison failure: %d vs %d\n",
my_int128_compare(t1.i128, t2.i128),
int128_compare(t1.I128, t2.I128));
printf("arg1 = %016lX%016lX\n", t1.hl.hi, t1.hl.lo);
printf("arg2 = %016lX%016lX\n", t2.hl.hi, t2.hl.lo);
return 1;
}
}
return 0;
}
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